This study is being done to establish the mechanisms underlying insulin resistance (reduced insulin action that can lead to high blood sugar and maybe diabetes) in patients undergoing androgen deprivation therapy (ADT) for prostate carcinoma as well as to investigate the role of pioglitazone therapy in reduction/ reversal of that insulin resistance
This is a single-center, cross-sectional then prospective, randomized single-blinded study with 2 groups of subjects. One group will be men with prostate cancer in various stages of ADT and the other group will be men with prostate cancer not on ADT as control group. Patients interested in participating who meet the inclusion/exclusion criteria and who agree to undergo blood draws and fat biopsy will be identified from the Genito-urinary oncology and urology clinics. These patients will be referred to the Diabetes and Endocrinology Research Center of WNY where they will undergo blood draws in fasting state. On the screening day, participants will be asked to complete the informed consent, medical history and physical exam, and non-fasting blood draws (for CBC, CMP and HbA1c) prior to participating in the study. 30 ml of blood will be drawn at this visit. Subjects who qualify and consent to take part in the study will be called in for the baseline study visit where they will undergo blood draws in fasting state. HOMA-IR method will be used to determine insulin resistance. Subcutaneous fat biopsies will be performed in all patients. Within the ADT group, subjects will be assigned a number by a computerized simple random number generation program (Excel, Microsoft Inc.) and will be randomized (1:1) to receive either pioglitazone or placebo. The patient will be blinded to the treatment, however, the research team will not. Subjects will be given a 12 week supply of pioglitazone 30 mg or placebo pills containing cellulose that will take once a day in morning. Subjects who develop side effects (weight gain, pedal edema) on the 30 mg dose will be asked to reduce the dose to 15 mg. Subjects will then return to the research center in 12 weeks for visit 2 where the fasting blood draws and subcutaneous fat biopsies will be performed again. The subjects will then be discharged from the study and follow with their physicians. Subject will receive a phone call after 1 and 4 weeks following start of treatment to collect any safety data. Patients will be instructed to call the research center anytime they have a question or side effects.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
pioglitazone 30 mg dose 1 tab daily will be given for 12 weeks
placebo pills containing cellulose 1 pill daily will be given for 12 weeks
Diabetes and Endocrinology Research Center of WNY
Buffalo, New York, United States
HOMA-IR
Change in HOMA-IR (the main index for evaluating insulin resistance) following pioglitazone and placebo treatment.
Time frame: 12 weeks
IRS-1 serine phosphorylation
Determine levels of IRS-1 serine phosphorylation in adipose tissue and MNC as a molecular marker of inflammation induced insulin resistance at baseline and after pioglitazone and placebo treatments
Time frame: 12 weeks
IRβ
Changes in expression of insulin signaling gene (IRβ) in both adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks
IRS-1
Changes in expression of insulin signaling gene (IRS-1) in both adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks
AKT-2
Changes in expression of insulin signaling gene (AKT-2) in both adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks
GLUT-4
Changes in expression of GLUT-4 in adipose tissue between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks
TNF-α
Changes in expression of proinflammatory gene (TNF-α) that interfere with insulin signaling transduction in adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
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Time frame: 12 weeks
IL 1β
Changes in expression of proinflammatory gene (IL 1β) that interfere with insulin signaling transduction in adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks
IKK-β
Changes in expression of proinflammatory gene (IKK-β) that interfere with insulin signaling transduction in adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks
SOCS-3
Changes in expression of proinflammatory gene (SOCS-3) that interfere with insulin signaling transduction in adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks
PTB-1B
Changes in expression of proinflammatory gene (PTB-1B) that interfere with insulin signaling transduction in adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks
JNK-1
Changes in expression of proinflammatory gene (JNK-1) that interfere with insulin signaling transduction in adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks
TLR-4
Changes in expression of proinflammatory gene (TLR-4) that interfere with insulin signaling transduction in adipose tissue and MNC between the ADT and non-ADT groups at baseline and after pioglitazone and placebo treatments in ADT group
Time frame: 12 weeks